Autonomous floor-cleaning robot

We claim: 1. A robot comprising: a robot housing having a forward portion; a motor drive housed in the robot housing and configured to maneuver the robot on a floor surface; at least two independently driven drive wheels moveably attached to the robot housing and biased toward the floor surface, each of the drive wheels being independently moveable downwardly; a plurality of cliff sensors disposed forward of the wheels and spaced from each other, each cliff sensor comprising an emitter positioned to direct emissions toward a floor surface and a detector configured to receive emitter emissions reflected off of the floor surface, each cliff sensor responsive to a cliff in the floor surface and configured to send a signal when a cliff in the floor surface is detected; at least one side brush driven about a nonhorizontal axis and comprising at least one brush arm having a plurality of bristles, at least a portion of the at least one side brush extending beyond a peripheral edge of the robot housing, and at least a portion of the at least one brush arm periodically intersecting a path between at least one of the plurality of cliff sensors and the floor surface; and a controller in communication with the plurality of cliff sensors and the motor drive, configured to redirect movement of the robot when a cliff in the floor surface is detected. 2. The robot of claim 1 , further comprising an obstacle detection sensor including an emitter and detector configured to detect the proximity of the robot to an obstacle and transmit a detection signal to the controller. 3. The robot of claim 2 , wherein the obstacle detection sensor is substantially adjacent the forward portion of the robot housing. 4. The robot of claim 1 , wherein the controller is configured to initiate a collision avoidance routine that navigates the robot about objects as the robot is maneuvered across the floor surface. 5. The robot of claim 1 , wherein the plurality of cliff sensors are substantially equally spaced from one another along the forward portion of the robot housing. 6. The robot of claim 1 , wherein the at least two drive wheels are moved to an extended position when the robot is removed from the floor surface. 7. The robot of claim 1 , wherein free ends of the bristles of the at least one side brush define a locus that intersects a peripheral edge of one of the at least two independently driven drive wheels. 8. The robot of claim 1 , further comprising a wheel drop sensor in communication with each drive wheel that is configured to sense when a drive wheel moves downwardly and send a signal indicating downward movement of the drive wheel. 9. The robot of claim 8 , wherein the wheel drop sensor senses when the drive wheel pivots downwardly. 10. The robot of claim 8 , wherein the wheel drop sensor senses when the drive wheel extends downwardly. 11. The autonomous coverage robot of claim 8 , wherein the wheel drop sensor senses when the drive wheel extends in a direction away from the robot housing. 12. The robot of claim 8 , wherein the controller is in communication with each of the wheel drop sensors. 13. A robot comprising: a robot housing having a forward portion; a motor drive housed in the robot housing; at least two independently driven drive wheels moveably attached to the robot housing, each of the drive wheels being moveable downwardly; a plurality of cliff sensors disposed forward of the wheels, each cliff sensor configured to send a signal when a cliff in the floor surface is detected; at least one side brush, comprising at least one brush arm that includes a plurality of bristles, and at least a portion of the at least one brush arm periodically intersecting a path between at least one of the plurality of cliff sensors and the floor surface; and a controller in communication with the plurality of cliff sensors and the motor drive, configured to redirect movement the robot when a cliff in the floor surface is detected. 14. The autonomous coverage robot of claim 13 , wherein the plurality of cliff sensors are substantially evenly positioned along the forward portion of the robot housing. 15. The autonomous coverage robot of claim 13 , wherein the controller is configured to initiate a collision avoidance routine that navigates the robot about objects as the robot moves across the floor surface. 16. The autonomous coverage robot of claim 13 , wherein the at least one side brush is mounted in a recess in the robot housing in front of one of the drive wheels and adjacent the peripheral edge of the robot housing. 17. The autonomous coverage robot of claim 13 , further comprising a bumper extending along a portion of the robot housing, the bumper having a bumper sensor responsive to movement of the bumper relative to the robot housing. 18. The autonomous coverage robot of claim 13 , further comprising an obstacle detection sensor including an emitter and detector configured to detect the proximity of the robot to an obstacle and transmit a detection signal to the controller. 19. The autonomous coverage robot of claim 13 , wherein the at least two drive wheels are moved to an extended position when the robot is removed from the floor surface. 20. The autonomous coverage robot of claim 13 , wherein free ends of the bristles of the at least one side brush define a locus that intersects a peripheral edge of one of the at least two independently driven drive wheels. 21. The autonomous coverage robot of claim 13 , further comprising a wheel drop sensor in communication with each drive wheel that is configured to sense when a drive wheel moves downwardly and send a signal indicating downward movement of the drive wheel. 22. The autonomous coverage robot of claim 21 , wherein the wheel drop sensor senses when the drive wheel pivots in a direction away from the robot housing. 23. The autonomous coverage robot of claim 21 , wherein the wheel drop sensor senses when the drive wheel extends in a direction away from the robot housing. 24. The autonomous coverage robot of claim 21 , wherein the controller is in communication with each of the wheel drop sensors.